Method and apparatus for introducing diluent flow into a combustor / General Electric Company

Title: Method and apparatus for introducing diluent flow into a combustor.Abstract: Disclosed is a combustor including a baffle plate having at least one through baffle hole and at least one fuel nozzle extending through the at least one baffle hole. At least one shroud is secured to the baffle plate and includes at least one piston ring disposed at the shroud. The at least one piston ring is configured to meter a flow of diluent between the at least one shroud and the at least one fuel nozzle. Further disclosed is a method for providing diluent to a combustor including providing a piston ring gap defined by at least one piston ring disposed at a baffle plate and a fuel nozzle extending through a through hole in the baffle plate. The diluent is flowed through the piston ring gap toward at least one airflow hole in the fuel nozzle. ...

BACKGROUND

The subject invention relates generally to combustors. More particularly, the subject invention relates to delivery of diluent flow into a combustor via a fuel nozzle.

Combustors typically include one or more fuel nozzles that introduce a fuel or a mixture of fuel and air to a combustion chamber where it is ignited. In some combustors, the fuel nozzles extend through holes disposed in a baffle plate of the combustor. In these combustors, it is often advantageous to introduce a volume of diluent, often nitrogen or steam, to the combustor to reduce NOx emissions and/or augment output of the combustor. The diluent is urged from a chamber through a gap between the baffle plate and each fuel nozzle, and then flows along a periphery of the fuel nozzle where a portion of the diluent enters the fuel nozzle via holes in the air collar of the fuel nozzle. The gaps between the baffle plate and the fuel nozzles, however, vary due to assembly tolerance stack-ups between the baffle plate and the fuel nozzles. The gap variation results in variation in diluent flow around each nozzle and throughout the combustor assembly. Further, an axial distance between the gap and the air collar holes in the fuel nozzle allow diluent to reach the combustion reaction zone without passing through the fuel nozzle and mixing directly with the fuel and air. Both of these effects reduce diluent efficiency and therefore a greater volume of diluent is required to achieve an equivalent amount of diluent flow into the fuel nozzle. The excess diluent that flows toward the combustion reaction zone without passing through the fuel nozzle leads to operability problems in the combustor such as dynamics and lean blow out.

BRIEF DESCRIPTION OF THE INVENTION

According to one aspect of the invention, a combustor includes a baffle plate having at least one through baffle hole and at least one fuel nozzle extending through the at least one baffle hole. At least one shroud is secured to the baffle plate and includes at least one piston ring disposed at the at least one shroud. The at least one piston ring is configured to meter a flow of diluent between the at least one shroud and the at least one fuel nozzle.

According to another aspect of the invention, a method for providing diluent to a combustor includes providing a piston ring gap defined by at least one piston ring disposed at a baffle plate and a fuel nozzle extending through a through hole in the baffle plate. The diluent is flowed through the piston ring gap toward at least one airflow hole in the fuel nozzle.

These and other advantages and features will become more apparent from the following description taken in conjunction with the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The subject matter which is regarded as the invention is particularly pointed out and distinctly claimed in the claims at the conclusion of the specification. The foregoing and other features and advantages of the invention are apparent from the following detailed description taken in conjunction with the accompanying drawings in which:

FIG. 1 is a cross-sectional view of an embodiment of a combustor;

FIG. 2 is an end view of an embodiment of a baffle plate assembly of a combustor;

FIG. 3 is a partial cross-sectional view of a fuel nozzle of the baffle plate assembly of FIG. 2;

FIG. 4 is a perspective view of an embodiment of a cover ring that supplies diluent to a plenum defined by the baffle plate assembly of FIG. 2;

FIG. 5 is a cross-sectional view illustrating an embodiment of a piston ring arrangement of the baffle plate assembly of FIG. 2; and

FIG. 6 is a perspective view of a locating feature of the piston ring arrangement of FIG. 5.

The detailed description explains embodiments of the invention, together with advantages and features, by way of example with reference to the drawings.

DETAILED DESCRIPTION

Shown in FIG. 1 is a combustor 10. The combustor 10 includes a baffle plate 12 having six baffle holes 14, through which six fuel nozzles 16 extend, for example, one fuel nozzle 16 extending through each baffle hole 14, as best shown in FIG. 2. While six fuel nozzles 16 are shown in FIG. 2, it is to be appreciated that other quantities of fuel nozzles 16, for example, one or four fuel nozzles 16, may be utilized. As shown in FIG. 3, the baffle plate 12 and a cover ring 18 define a plenum 20 into which a diluent flow 22 is guided via an array of orifices 24 (best shown in FIG. 4) in the cover ring 18. In some embodiments, the diluent flow 22 may comprise steam, or other diluents such as nitrogen.

At each fuel nozzle 16, as shown in FIG. 3, a shroud 26 is disposed at the baffle hole 14 between the baffle plate 12 and the fuel nozzle 16. The shroud 26 is affixed to the baffle plate 12 by welding or by other means of attachment such as one or more mechanical fasteners, by brazing, or by adhesives. The shroud 26 extends circumferentially around the fuel nozzle 16 and is disposed at a radial distance from the fuel nozzle 16 leaving a shroud gap 28 between the shroud 26 and the fuel nozzle 16. In some embodiments, the shroud 26 comprises an attachment flange 30 at which the shroud 26 is affixed to the baffle plate 12, and an annular flow portion 32 which extends longitudinally along the fuel nozzle 16 defining a flow channel 34 between the flow portion 32 and the fuel nozzle 16. In some embodiments, the flow portion 32 is substantially parallel to the fuel nozzle 16 such that the flow channel 34 has a substantially constant cross-sectional area along a nozzle axis 36. As shown in FIG. 5, the shroud includes a piston ring slot 38 at an inner surface 40 of the flow portion 32, which extends circumferentially around the fuel nozzle 16. One or more piston rings 42 are disposed in the piston ring slot 38 and extend radially inwardly toward the fuel nozzle 16 defining a piston ring gap 44 between the fuel nozzle 16 and an inboard portion 46 of the one or more piston rings 42. Two piston rings 42 are shown in the embodiment of FIG. 5, but it is to be appreciated that other quantities of piston rings 42, for example one or three piston rings 42 may be utilized.

As shown in FIG. 6, the piston rings 42 include at least one locating tab 48 extending radially inwardly from the inboard portion 46 toward the fuel nozzle 16. Each locating tab 48 is configured to be received in a corresponding locating slot 50 in the fuel nozzle 16. When the baffle plate 12 and the installed piston rings 42 are assembled to the fuel nozzle 16, the locating tabs 48 align with the locating slots 50 and are installed thereto setting a circumferential orientation of the piston rings 42 around the fuel nozzle 16 and establishing a desired piston ring gap 44, which is interrupted at each locating tab 48 location. Utilizing the piston rings 42 located by the combination of the locating tabs 48 and locating slots 50 establishes a consistent piston ring gap 44 around each fuel nozzle 16.

In operation, the diluent flow 22 is guided from the plenum 20, along the shroud gap 28, and through the piston ring gap 44. Once through the piston ring gap 44, the diluent flow 22 is introduced to an exterior 52 of the baffle plate 12 at a head end 54 of the combustor 10, in close proximity to a plurality of air flow holes 56 in the fuel nozzle 16. At least a portion of the diluent flow 22 enters the plurality of air flow holes 56 and is mixed with air and fuel in the nozzle 16. Guiding the diluent flow 22 along the shroud gap 28 allows injection of the diluent flow 22 nearby the air flow holes 56 to increase efficiency of the diluent flow 22. Further, the diluent flow 22 is metered via the piston ring gap 44 and is consistent around the baffle plate 12 due to the use of the locating tabs 48 to establish consistent piston ring gaps 44. Thus, a volume of diluent flow 22 required is reduced thereby reducing operability issues such as dynamics and lean blow out.

While the invention has been described in detail in connection with only a limited number of embodiments, it should be readily understood that the invention is not limited to such disclosed embodiments. Rather, the invention can be modified to incorporate any number of variations, alterations, substitutions or equivalent arrangements not heretofore described, but which are commensurate with the spirit and scope of the invention. Additionally, while various embodiments of the invention have been described, it is to be understood that aspects of the invention may include only some of the described embodiments. Accordingly, the invention is not to be seen as limited by the foregoing description, but is only limited by the scope of the appended claims.

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20100415|20100092896|introducing diluent flow into a combustor|Disclosed is a combustor including a baffle plate having at least one through baffle hole and at least one fuel nozzle extending through the at least one baffle hole. At least one shroud is secured to the baffle plate and includes at least one piston ring disposed at the shroud. |General-Electric-Company